K. Hayashi, Tsunehisa Doi, T. Horie, Y. Koyanagi, Osamu Shiraki, Nobutaka Imamura, T. Shimizu, H. Ishihata, Tatsuya Shindo
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AP1000+: architectural support of PUT/GET interface for parallelizing compiler
The scalability of distributed-memory parallel computers makes them attractive candidates for solving large-scale problems. New languages, such as HPF, FortranD, and VPP Fortran, have been developed to enable existing software to be easily ported to such machines. Many distributed-memory parallel computers have been built, but none of them support the mechanisms required by such languages. We studied the mechanisms required by parallelizing compilers and proposed a new architecture to support them. Based on this proposed architecture, we developed a new distributed-memory parallel computer, the AP1000+, which is an enhanced version of the AP1000. Using scientific applications in VPP Fortran and C, such as NAS parallel benchmarks, we simulated the performance of the AP1000+.
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